Calculation of Atomic Number States: a Bethe Ansatz Approach
Shou-Pu Wan, Mark G. Raizen, Qian Niu
TL;DR
This paper presents a Bethe ansatz-based framework for analyzing the production of atomic number states in a one-dimensional optical box, offering insights applicable across various experimental conditions.
Contribution
It introduces a novel Bethe ansatz approach to study atomic number state generation in 1D optical traps, broadening theoretical understanding.
Findings
Framework applicable to diverse experimental parameters
Conditions for atomic number state production identified
Potential for optimizing quantum state engineering
Abstract
We analyze the conditions for producing atomic number states in a one-dimensional optical box using the Bethe ansatz method. This approach provides a general framework, enabling the study of number state production over a wide range of realistic experimental parameters.
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